This application claims the priority benefit of Taiwan application serial no. 109101704, filed on Jan. 17, 2020. The entirety of the above-mentioned patent application is hereby incorporated by reference herein and made a part of this specification.
The disclosure relates to a key structure, and in particular, to a key structure applied to a keyboard.
As a common physical input device, a keyboard is widely applied to the desktop computer, the notebook computer, or other electronic apparatuses. Generally, the keyboard includes a plurality of key structures, and a shaft body adopted in the key structure may include a mechanical shaft, a rubber dome shaft, or a spring shaft.
Taking the key structure using the spring shaft (for example, a compression spring) as an example, the design of such a key structure is mostly integrated with an elastic piece. Therefore, in the process of pressing down a key cap, the elastic piece is touched by the key cap to make a sound, thereby improving the auditory experience of a user when the user operates the key structure. However, the aforementioned sound structure design has poor structural integrity, and it is difficult to meet design requirements of product miniaturization.
The invention provides a key structure which has improved structural integrity.
The invention provides a key structure, including a base plate, a key cap, a positioning base, a positioning cover, and a spring. The key cap is disposed above the base plate, where the key cap has a bottom surface facing the base plate. The positioning base is connected to the bottom surface of the key cap, and the positioning base has a positioning recess. The positioning cover is slidably connected to the positioning base, where the positioning cover is inserted into the positioning recess and the positioning cover includes a bottom portion and a side wall connected to the bottom portion. The bottom portion is in contact with the base plate. The spring includes a first spring portion and a second spring portion opposite to the first spring portion. The first spring portion is located in the positioning recess and is in contact with the bottom surface of the key cap. The second spring portion is located in the positioning cover and is in contact with the bottom portion of the positioning cover. The first spring portion is located on a path on which the side wall of the positioning cover slides toward the bottom surface of the key cap.
Based on the above, in the key structure of the invention, a sound structure design is integrated into the positioning cover and the spring, so that the key structure has improved structural integrity and can meet design requirements of product miniaturization. In particular, when the key cap is pressed down (i.e., the key cap moves toward the base plate), the positioning cover slides toward the bottom surface of the key cap, and the first spring portion of the spring makes a sound when being touched and pressed by the positioning cover, thereby improving the auditory experience of a user when the user operates the key structure.
In order to make the above features and advantages of the invention more comprehensible, embodiments are described below in detail with reference to the accompanying drawings.
The key cap 120 has a bottom surface 121 facing the base plate 110, where the positioning base 130 is connected to or protrudes from the bottom surface 121 of the key cap 120, and the positioning base 130 has a positioning recess 131 for accommodating the spring 150. The positioning cover 140 is slidably connected to the positioning base 130 and is inserted into the positioning recess 131. Further, the positioning cover 140 includes a bottom portion 141 and a side wall 142 connected to the bottom portion 141, and the bottom portion 141 is in contact with the base plate 110. In addition, the spring 150 includes a first spring portion 151 and a second spring portion 152 opposite to the first spring portion 151. The first spring portion 151 is located in the positioning recess 131 and is in contact with the bottom surface 121 of the key cap 120. The second spring portion 152 is located in the positioning cover 140 and is in contact with the bottom portion 141. In other words, the spring 150 is indirectly in contact with the base plate 110 through the bottom portion 141 of the positioning cover 140.
The spring 150 may be a compression spring, and the key structure shown in
Referring to
As shown in
Referring to
In particular, the outer diameter OD2 of the second spring portion 152 is equal to an outer diameter OD3 of the third spring portion 153, the outer diameter OD1 of the first spring portion 151 being greater than the outer diameter OD3 of the third spring portion 153, and the outer diameter OD2 of the second spring portion 152 and the outer diameter OD3 of the third spring portion 153 being less than the inner diameter ID of the positioning cover 140.
The third spring portion 153 is configured to connect the first spring portion 151 and the third spring portion 153. The third spring portion 153 includes a plurality of coils, a pitch of any two adjacent coils of these coils being P2. In addition, the first spring portion 151 includes a plurality of coils, a pitch of any two adjacent coils of these coils being P1. In particular, the pitch P2 of the third spring portion 153 is greater than the pitch P1 of the first spring portion 151. When the key cap 120 is pressed down (or the key cap 120 moves toward the base plate 110), the first spring portion 151 and the third spring portion 153 are main deformation regions of the spring 150.
Based on the above, compared with the first spring portion 151, the third spring portion 153 is more susceptible to compression and deformation, so that segmented (or two-stage) operation feeling can be fed back to the user. In addition, because the outer diameter OD1 of the first spring portion 151 gradually expands toward the bottom surface 121 of the key cap 120, when the key cap 120 is pressed down (or the key cap 120 moves to the base plate 110), the first spring portion 151 is retracted under force, to feed back special operation feeling to the user.
Referring to
In view of the above, in the key structure of the invention, a sound structure design is integrated into the positioning cover and the spring, so that the key structure has improved structural integrity and can meet design requirements of product miniaturization. In particular, when the key cap is pressed down (i.e., the key cap moves toward the base plate), the positioning cover slides toward the bottom surface of the key cap, and the first spring portion of the spring makes a sound when being touched and pressed by the positioning cover, thereby improving the auditory experience of a user when the user operates the key structure.
Although the invention has been disclosed as above with the embodiments, it is not intended to limit the invention. A person with ordinary knowledge in the technical field can make some changes and decorations without departing from the spirit and scope of the invention. Therefore, the scope of protection of the invention shall be determined by the scope of the attached patent application.
Number | Date | Country | Kind |
---|---|---|---|
109101704 | Jan 2020 | TW | national |